Curiosity is a rover that’s been working in the dark of night on Mars.
Curiosity is the first spacecraft to enter Mars’ Gale Crater, and in the past two years has been orbiting the planet at speeds that can take up to a half mile per second.
Its instruments have been working hard on detecting organic molecules, which could be methane or methane-containing compounds that are present in the Martian atmosphere.
The rover’s current mission is to find out if life exists on Mars and to characterize the terrain it has come across.
Curiosity’s latest mission, the rover Curiosity Mars, is scheduled to land in 2020.
It’s the first time the team has sent a robotic spacecraft into space for a long-term mission.
The team plans to use Curiosity’s instruments to look for evidence of life on Mars during the 2020 rover’s mission, as well as to analyze the chemical composition of the soil and water on Mars’ surface.
On the surface, Curiosity has been looking for clues about the composition of Mars’ ancient environment.
It will be able to analyze soil samples to try to figure out how much the surface has changed over time.
Scientists hope that the samples will reveal a lot about how life began on Mars long ago.
What does Curiosity mean for you?
The first step in the mission is the drilling of a 3.8-mile (5.6-kilometer) hole in the surface of Mars called a “diphole” (which is the Latin for hole).
This drill is called a drill bit, and it is essentially a small drill.
The drill is about three-and-a-half inches (9 centimeters) long, and is about the size of a credit card.
If the drill bit is drilled properly, it will drill into the surface about 3 inches (7 centimeters) below the surface.
Once the drill is deep enough, the drill will be inserted into the soil, and the probe will be released from the drill to make a 3-foot-wide (1.5 meters) hole.
In the hole, the Curiosity rover will use a small electric drill called a rover motor to drill into an ice sheet called the “methane mantle.”
This is what allows the rover to dig into the bedrock.
After drilling a small hole, Curiosity will use the rover’s rovers arm to grab the rock and then send it through a giant scoop to the rover arm.
Next, the probe’s roves arm will lift the rock out of the mud.
Then the rover will push the rock up to the arm and place it on the drill’s arm.
The arm will drill down about two feet (610 centimeters) into the mud, and Curiosity will send the rock back out to the surface for analysis.
Scientists hope that if they can use Curiosity to understand the chemistry of Mars, it could tell us about how the planet got its name and what happened to its ancient surface.
For example, if the rover could study how the rock’s organic molecules interacted with the atmosphere, it would tell us whether the soil was formed by organic molecules or other substances.
Curiosity’s arm is also being used to collect a variety of samples for analysis, such as the rock it’s coming out of.
The probe is also carrying out other experiments on the surface and in other parts of the Martian crust.
There are several ways scientists hope to get more detailed information about the surface from Curiosity’s work on the Martian surface.
They could collect samples from the surface to learn more about how Mars formed and how it got its present form.
These samples could be sent back to Earth and analyzed for the chemical signature of the material that made up the surface in the first place.
They could also send out samples to other researchers to study how Mars was formed.
This could tell them if the surface formed over millions of years or thousands of years ago.
Another method could be to send back soil samples that the Curiosity rovers have drilled into the Martian soil.
These samples could then be analyzed for how the soil has changed in the presence of different types of gases and sunlight.
This all sounds pretty exciting.
What are some of the things we can learn about the atmosphere on Mars that we can’t learn from Curiosity?
If we were able to collect samples of the atmosphere that we could use to understand how the surface was formed, we could learn about what kind of weather conditions prevailed on the planet during the past millions of days.
These weather conditions could help us better understand how water vapor and carbon dioxide were released by Mars during its formation and when it became an ocean.
One way to get a more detailed look at the atmosphere is to use the rovers rovers arms.
These rovers are the same ones used on Mars to drill the hole in Mars’ crust, but instead of drilling holes, they will drill a 3½-inch-wide hole. This